Abstract
This paper introduces a novel solution for building fault aware memory built-in self-test infrastructure based on rules of fault periodicity and regularity in memories and test algorithms. These periodicity and regularity rules are described via special internal structures named fault periodicity table (FPT) and test algorithm template (TAT). Three dimensions of evolution are considered as inputs for forming the mentioned structures: memory cells, multidimensional memory circuits, and memory systems for systems-on-chip where memories are distributed in different subchips. Each column of FPT corresponds to a fault nature which can be associated with a variety of different test mechanisms while each row of FPT corresponds to a fault family determined by the complexity of fault sensitization. FPT allows considering any large number of faults in one table while TAT allows constructing test algorithms without using test algorithm generation tools. Experimental results of the solution applied to both Planar-based (90/65/45/28 nm) and FinFET-based (16/10/7 nm) memory technologies are adduced also in this paper.
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